This paper presents the performance prediction of a solar/gas driving double effect LiBr–H2O absorption system. In order to use auxiliary energy more effectively and be less dependent on solar irradiation, a new kind of solar/gas driving double effect LiBr–H2O absorption system is designed. In this system, the high-pressure generator is driven by conventional energy, natural gas, and solar energy together with water vapor generated in the high-pressure generator, which supplies energy to the low-pressure generator for a double effect absorption system. The temperature of hot water supplied to the low-pressure generator is close to 90 °C. Apart from refrigeration in summer, this system also supplies space heating in winter and hot water throughout the year for family daily use. Simulation results illustrate that this kind of system is feasible and economical. Economic evaluation of several systems is also given in this paper in order to get a clear knowledge of the energy consumption of the system.
[1]
J. B. Bergquam,et al.
Thermal model of solar absorption HVAC systems
,
1995
.
[2]
Kim Choon Ng,et al.
Performance study of a solar-powered air-conditioning system
,
1987
.
[3]
A. A. M. Sayigh,et al.
Solar air conditioning and refrigeration
,
1992
.
[4]
George O.G. Löf,et al.
INTEGRATION OF EVACUATED TUBULAR SOLAR COLLECTORS WITH LITHIUM BROMIDE ABSORPTION COOLING SYSTEMS
,
1978
.
[5]
Z. F Li,et al.
Experimental studies on a solar powered air conditioning system with partitioned hot water storage tank
,
2001
.
[6]
Jan F. Kreider,et al.
Solar energy handbook
,
1981
.
[7]
Felix Ziegler,et al.
Recent developments and future prospects of sorption heat pump systems
,
1999
.